Efficiency of the tetracycline-dependent gene expression system: complete suppression and efficient induction of the rolB phenotype in transgenic plants

We have investigated the use of the tetracycline-dependent gene expression system to regenerate and propagate tobacco plants transformed with a gene whose product — when highly expressed — interferes with regeneration and/or further reproduction. Plants transformed with the Agrobacterium rhizogenes rolB gene under the control of the tetracycline-dependent expression system were phenotypically indistinguishable from wild type owing to efficient repression of the promoter. Induction of the rolB gene with tetracycline led to high-level expression of the rolB mRNA, which resulted in extremely stunted plants with necrotic and wrinkled leaves that did not develop a floral meristem. Upon cessation of tetracycline treatment healthy shoots developed even from severely affected meristems. Data on the dose response of the rolB phenotype as a function of tetracycline concentration demonstrate that the tetracycline-dependent gene expression system can be used to modulate the manifestation of a particular phenotype.     

Stable expression of a single-copy rolA gene in transgenic Arabidopsis thaliana plants allows an exhaustive mutagenic analysis of the transgene-associated phenotype

Several publications have documented the instability of transgene expression in plants. Previous genetic approaches to the study of transgene-associated phenotypes in plants were limited by this phenomenon. Here we show that a transgene can be expressed in plants with sufficient stability to allow an exhaustive mutagenic analysis of the resulting phenotype. We have expressed the morphogenic rolA gene from the TL-DNA of Agrobacterium rhizogenes Ri plasmid in transgenic Arabidopsis thaliana plants. The resulting pleiotropic RolA phenotype allows a visual screen for reversion to detect germinal as well as somatic instability of transgene expression. However no spontaneous reversions of the RolA phenotype were observed in 65 000 progeny of two independent transgenic A. thaliana lines, each carrying a single homozygous rolA locus. In contrast, 12 revertants of the RolA phenotype were isolated from 360000 ethyl methane sulphonate (EMS)-mutagenized M2 progeny. All revertants were shown genetically to carry stable recessive mutations in the rolA locus, thus establishing a series of loss-of-function alleles. Molecular characterization revealed that the loss-of-function alleles were structurally intact and expressed in all rolA mutants. A wild-type rolA locus and two loss-of-function alleles were reisolated and sequenced; base pair substitutions were found in each loss-of-function allele leading to single amino acid substitutions in the rolA open reading frame. Therefore no instability of expression of the rolA locus was detected in any of the 425 000 individuals studied in this analysis. Furthermore even under conditions of saturation mutagenesis, no extragenic suppressor locus was detected.     

Tissue-specific and constitutive expression of a hypothetical gene At2g37610 in transgenic Arabidopsis

Hypothetical genes should play important roles in plant growth and development, although their biological functions await elucidation. One of these genes, namely At2g37610, caught our attention during the gene cloning of several salt-tolerant mutants. Promoter-GUS fusion analysis indicated a unique tissue-specific expression pattern of At2g37610 in Arabidopsis. Constitutive expression of the gene under 35S promoter caused obvious morphological changes in transgenic Arabidopsis plants, such as curled rosette leaves and bushy phenotype at maturity. Phenotypic characterization revealed that the cause of the bushy phenotype was the enhanced lateral bud outgrowth at the bottom region of the primary inflorescence, which is different from that of reported mutant plants (bushy or branched) such as max, axr1, and bus mutants. Together, these data suggest that At2g37610 is a possible novel gene related to the regulation of leaf development and shoot patterning.     

Tissue-specific expression of the rolC promoter of the Ri plasmid in transgenic rice plants

Summary Transgenic rice plants were obtained from protoplasts treated with two plasmids by electroporation. Primary transformants were selected on the basis of resistance to hygromycin, conferred by one of the co-transferred plasmids. Out of 26 hygromycin-resistant plants 2 showed the reporter gene activity due to another plasmid possessing a chimeric gene consisting of the promoter (about 900 by upstream non-coding region) of the ORF12 gene (roIC of the Ri plasmid and the coding region for -glucuronidase (GUS). Using a colorimetric reaction, the GUS enzyme was found to be localized in vascular tissues, demonstrating the similar expression of the roIC gene promoter in monocots and dicots (Sugaya et al. 1989; Schmülling et al. 1989).     

夏枯草PvGGPPS基因的克隆和诱导表达分析

为探究夏枯草中GGPPS基因的生物学特性及功能,该文在夏枯草转录组测序的基础上设计特异性引物,采用逆转录PCR技术获得夏枯草中GGPPS基因的全长核苷酸序列,并进行生物信息学分析;采用qPCR法分析PvGGPPS基因在不同外源性物质诱导下在夏枯草果穗中的表达量以及该基因在夏枯草不同组织中的表达量。结果表明:PvGGPPS基因开放阅读框1 092 bp,编码363个氨基酸,理论分子量为38 815.68 D,等电点为5.69。PvGGPPS蛋白具有异戊烯基焦磷酸合酶家族的特征结构域。系统进化树表明PvGGPPS蛋白与丹参、毛喉鞘蕊花GGPPS蛋白具有较高的亲缘关系。qPCR分析表明,PvGGPPS基因在叶中表达量高于果穗及茎。对果穗施加7种外源性物质处理24 h后,GA3处理组该基因表达量升高。PvGGPPS基因在夏枯草不同组织中表达量差异较大,且受外源物质诱导表达。该研究结果为进一步研究PvGGPPS基因对夏枯草萜类成分合成途径中的功能及表达调控奠定基础。     

柠条锦鸡儿F3H基因克隆及功能分析

柠条锦鸡儿为豆科灌木,对各种环境胁迫具有较强的适应能力,类黄酮是天然的抗氧化剂,花青素属类黄酮化合物,逆境胁迫会影响植物体内花青素的合成,而黄烷酮3-羟化酶(F3H)是花青素生物合成所必需的一种关键酶。该研究成功分离克隆了柠条锦鸡儿的F3H基因,命名为CkF3H。CkF3H基因的开放阅读框(ORF)为1095 bp,编码364个氨基酸,推测的蛋白质分子量为41.3 kDa,理论等电点为5.9。生物信息学分析发现,CkF3H基因序列与其它植物F3H有较高的一致性,推测CkF3H蛋白与其它植物F3H蛋白具有相似的功能。利用染色体步移法克隆得到CkF3H起始密码子ATG上游468 bp的启动子序列,PlantCARE软件分析表明,该序列具有启动子的基本元件CAAT-box和TATA-box以及多种与逆境胁迫相关的顺式调控元件。实时荧光定量PCR分析表明,CkF3H在柠条的根、茎和叶中均有表达,没有组织特异性;CkF3H的表达受低温、高盐、干旱和高温胁迫的诱导,并且在低温胁迫下,CkF3H的表达还受到光周期的影响。综上所述,研究结果表明CkF3H基因在柠条锦鸡儿适应低温、高盐、干旱和高温胁迫的过程中发挥作用。     

毛竹APX基因系统进化与表达分析

抗坏血酸过氧化物酶(aseorbate peroxidase, APX)是植物活性氧代谢中重要的抗氧化酶之一,尤其是叶绿体中清除H₂O₂的关键酶,也是维生素C代谢的主要酶类。该文基于生物信息学方法,利用毛竹的基因组及转录组数据鉴定毛竹中的APX基因家族成员,并对其编码的蛋白基本理化性质、基因结构、启动子元件、系统进化及共线性关系、重复串联基因、GO注释及表达模式进行综合分析,共鉴定出21种编码APX的基因。结果表明:(1)PeAPX基因家族成员多为不稳定疏水蛋白,基因结构、基序及结构域相对较为保守,大多数APX基因具有高度保守的内含子模式。(2)系统进化关系显示毛竹APX基因与水稻APX基因有着较高的同源性关系,PeAPX具有较高的进化保守性。(3)Ka/Ks分析表明PeAPX基因都经历了纯化选择压力,此外在每个APX基因的启动子序列中发现有许多与应激反应和植物激素相关的顺式作用元件,结合表达量分析,表明毛竹APX基因在毛竹生长发育中起着正向促进作用。该研究为进一步了解毛竹APX基因家族基本功能及其抗氧化机制提供了一定的参考,为毛竹APX基因功能的深层次鉴定提供了重要依据。     

Systemic induction of proteinase-inhibitor-II gene expression in potato plants by wounding

The systemic induction of expression of the gene for proteinase inhibitor II after wounding different parts of potato (Solanum tuberosum L.) plants was analysed at the RNA level. Wounding of either leaves or tubers led to an induction of expression of this gene in non-wounded upper and lower leaves as well as in the upper stem segment, whereas no expression was observed in nonwounded roots or in the lower stem segment. The signal mediating the systemic induction in nonwounded tissue must therefore be able to move both acropetally and basipetally. The systemic wound response is specific for the expression of the proteinase-inhibitor-II gene as no influence was observed for the expression of genes encoding the small subunit of ribulose-1,5-bisphosphate carboxylase and the tuber storage protein patatin which were examined in parallel with the proteinase-inhibitor-II gene.Abbreviation ssRubisco small subunit of ribulose-1,5-bis-phosphate carboxylase     

苏云金芽胞杆菌杀线虫伴胞晶体蛋白基因cry6Aa的克隆与表达

通过对晶体蛋白N-末端氨基酸测序,设计简并探针,从对根结线虫高毒力苏云金芽胞杆菌YBT-1518菌株中克隆到1个含有杀线虫晶体蛋白基因的片段。序列测定表明该序列含有两个ORF(orf1和orf2),其中orf1与基因cry6Aa1同源性为98%,已在GenBank上登录(Acc.NO.AF499736),并被命名为cry6Aa2。将克隆的该片段克隆到穿梭载体pHT304上,并转化苏云金芽胞杆菌无晶体突变株BMB171,重组菌株可形成米粒状伴胞晶体。生物测定表明,表达的毒素蛋白对北方根结线虫的LC₅₀为9.47μg/mL,毒力与出发菌株(10.74μg/mL)相当。     

白菜CesA基因家族鉴定及表达模式分析

为探究CesA基因家族在白菜生长发育及纤维素合成过程中的作用机制,该文通过生物信息学的方法,以白菜的全基因组序列为研究区域,进行理化特征、基因结构、进化特征、保守基序及结构域、顺式作用元件和组织表达等鉴定分析。结果表明:(1)共鉴定出16个编码纤维素合成酶亚基的CesA基因,该家族成员所编码蛋白的理论等电点为4.76～9.12,相对分子量为17.76～122.67 kD,长度为153～1 089 aa。(2)15个基因不均匀地分布于白菜的7条染色体上,Bra036008定位于scaffold上。(3)大部分成员包含4～14个外显子,1～11个保守基序。(4)该家族具有保守的DDD-QXXRW 保守功能域。(5)该家族编码蛋白主要分布在质膜上,二级结构以无规则卷曲与α-螺旋为主,多数成员都含有CesA蛋白典型的N端、C端和跨膜区。(6)CesA基因在茎中表达量相对较高,其中Bra011865、Bra023952和Bra029874在茎、叶、花中显著表达。该研究结果为后续深入研究CesA基因功能以及白菜生长发育研究奠定了基础。     

Functional analysis of an Aspergillus ficuum phytase gene in Saccharomyces cerevisiae and its root-specific, secretory expression in transgenic soybean plants

Phytases release inorganic phosphates from phytate in soil. A gene encoding phytase (AfPhyA) was isolated from Aspergillus ficuum and its ability to degrade phytase and release phosphate was demonstrated in Saccharomyces cerevisiae. A promoter from the Arabidopsis Pky10 gene and the carrot extensin signal peptide were used to drive the root-specific and secretory expression of the AfPhyA gene in soybean plants. The phytase activity and inorganic phosphate levels in transgenic soybean root secretions were 4.7 U/mg protein and 439 μM, respectively, compared to 0.8 U/mg protein and 120 μM, respectively, in control soybeans. Our results demonstrated the potential usefulness of the root-specific promoter for the exudation of recombinant phytases and offered a new perspective on the mobilization of phytate in soil to inorganic phosphates for plant uptake. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users. Guilan Li and Shaohui Yang authors contribute equally to the paper.     

滇水金凤花距发育相关基因ABP的克隆及表达分析

为探究滇水金凤(Impatiens uliginosa)ABP基因的结构和表达特征,该研究以滇水金凤为材料,采用RT-PCR 技术对滇水金凤ABP基因进行克隆,运用DNAMAN和MEGA对其所编码的蛋白序列进行同源性分析和系统进化分析,并利用qRT-PCR分析ABP基因的时空表达模式。结果表明:(1)滇水金凤ABP基因的cDNA 全长为627 bp,编码208 aa,命名为IuABP基因,其蛋白具有Cupin超家族蛋白的典型结构。(2)同源性分析表明滇水金凤ABP基因的氨基酸序列与喜马拉雅凤仙花(I. glandulifera)、月季(Rose chinensis)、木薯(Manihot esculenta)等物种的同源性均达71%; 系统进化分析表明IuABP与喜马拉雅凤仙花(Impatiens glandulifera)聚为一支,亲缘关系最近。(3)qRT-PCR分析表明IuABP基因在滇水金凤花距发育的3个时期及2个部位均有表达。随着花距的发育,IuABP基因在滇水金凤花距檐部的表达量呈先下降后上升的趋势,在盛花期时达最高,而在花距距部的表达量逐渐下降。以上结果为进一步研究滇水金凤ABP基因在花距发育中的功能及其表达调控机制提供了一定的理论参考。     

水稻OsMBF1c基因的克隆及表达分析

多蛋白桥联因子1(multi protein bridging factor 1, MBF1)在植物应对逆境胁迫中起着重要的作用,而对于水稻中MBF1是否参与重金属胁迫响应机制目前尚未见相关报道。为了揭示水稻MBF1家族与重金属胁迫的相关性及其潜在作用机制,该研究利用PCR技术克隆水稻OsMBF1c基因的全长编码序列,通过生物信息学对基因功能进行分析和预测,并通过实时荧光定量PCR(RT-qPCR)分析其在镉(Cd)胁迫下的表达特征。结果表明:(1)OsMBF1c的全长编码序列为468 bp,共编码155个氨基酸,相对分子量为16.154 kDa。(2)OsMBF1c与大麦TdMBF1a.1亲缘关系最近,具有光、厌氧等环境因子诱导相关的顺式调节元件。(3)重金属Cd可诱导OsMBF1c表达且在时间上和组织中的表达水平具有特异性,100 μmol·L^-1 Cd 处理1 h 后,地上部分OsMBF1c表达量明显上调,为对照组的7倍; 100 μmol·L^-1 Cd 胁迫处理6 h后,根部OsMBF1c表达量上调为对照组的3倍。该研究结果进一步完善了非生物胁迫下MBF1家族的生物学功能研究。     

Characterization of the expression of a desiccation-responsive rd29 gene of Arabidopsis thaliana and analysis of its promoter in transgenic plants

Summary We characterized the expression of genes that correspond to a cDNA clone, RD29, which is induced by desiccation, cold and high-salt conditions in Arabidopsis thaliana. Northern analysis of desiccation-induced expression revealed a two-step induction process. Early induction occurs within 20 min and secondary induction occurs 3 h after the start of desiccation. Exogenous abscisic acid (ABA) induces RD29 mRNA within 3 h. Two genes corresponding to RD29, rd29A and rd29B, are located in tandem in an 8 kb region of the Arabidopsis genome and encode hydrophilic proteins. Desiccation induces rd29A mRNA with two-step kinetics, while rd29B is induced only 3 h after the start of desiccation. The expression of both genes is stimulated about 3 h after application of ABA. It appears that rd29A has at least two cis-acting elements, one involved in the ABA-associated response to desiccation and the other induced by changes in osmotic potential. The -glucuronidase (GUS) reporter gene driven by the rd29A promoter was induced at significant levels by desiccation, cold, high-salt conditions and ABA in both transgenic Arabidopsis and tobacco. Histochemical analysis of GUS activity revealed that the rd29A promoter functions in almost all the organs and tissues of vegetative plants during water deficiency.     

蒜头果中CYP71基因克隆与果实不同发育时期的表达分析

由氨基酸衍生的氰苷是由植物细胞色素P450单加氧酶(CYP)催化氨基酸生成的次生代谢产物,与植物的防御和抗逆境胁迫相关。该研究通过分析蒜头果转录组数据,从中分离并克隆得到1条细胞色素P450基因(命名为MoCYP71,GenBank登录号为MK172858),对其进行生物信息学分析并检测该基因在果实不同发育时期的表达情况。结果表明:MoCYP71基因含1 572 bp,编码523个氨基酸,该基因的cDNA序列与咖啡(Coffea eugenioides,XM_027319282)、小果咖啡(Coffea arabica,XM_027213456)中的CYP71基因的mRNA序列均有88%的一致性; MoCYP71蛋白的相对分子质量为58 976.54,理论等电点pI为8.10,分子式为C_(2675)H_(4184)N_(704)O_(744)S_(27),不稳定系数(Ⅱ)为40.84,是一种不稳定蛋白;该蛋白不存在信号肽,存在于分泌途径,含有两个跨膜结构,分别位于20～37和311～333位的氨基酸为跨膜疏水螺旋,锚定于细胞器上;该蛋白含有CYP家族的保守结构域,包括脯氨酸富集区(PPSPPRLP)、K螺旋(KETFR)、I螺旋(GGIDTS)、PERF域(PERF)和识别结构域血红素结合域(FGAGRRICPG),与可可、榴莲、高粱等的CYP71E家族的蛋白(GenBank登录号分别为EOX92908.1、XP_022773875.1和AAC39318.1)聚为一支;在花谢后,MoCYP71基因表达量逐渐降低,花谢后1个月2个月3个月,但在花谢后4个月的表达量急剧增加。以上结果对研究蒜头果的对虫害的防御、组织成熟及蒜头果中有效次生代谢产物的发掘具有重要意义。     

滇龙胆GrHDR基因的克隆与表达分析

龙胆苦苷(gentiopicroside)是中药龙胆中的主要药效成分,属于萜类化合物的衍生物。1-羟基-2-甲基-2-(E)-丁烯基-4-二磷酸还原酶[1-hydroxy-2-methyl-2-(E)-butenyl-4-diphosphate reductase,HDR]是萜类物质合成途径中的关键酶。为探讨不同光照条件下滇龙胆HDR(GrHDR)基因的表达与龙胆苦苷含量之间的关系,该文以滇龙胆叶片cDNA为模板,采用PCR和TA克隆技术获得GrHDR基因序列,对该序列进行生物信息学分析和表达分析,并采用高效液相色谱法测定龙胆苦苷含量,对该基因表达与龙胆苦苷含量进行比较。结果表明:(1)GrHDR基因(GenBank登录号: KJ917165.1)全长1 398 bp,编码465个氨基酸,推定GrHDR蛋白是亲水且稳定的,相对分子质量是52 281.25 Da,理论等电点是5.32;(2)该蛋白属于LYTB蛋白家族,可能定位于叶绿体上,无信号肽,二级结构主要由α-螺旋(45.16%)、β-转角(6.24%)、无规卷曲(33.98%)、延伸链(14.62%)构成;(3)GrHDR蛋白序列与同属植物秦艽的HDR蛋白相似性最高(95.71%);(4)实时荧光定量PCR结果显示GrHDR基因在滇龙胆中的表达量为根 > 叶 > 茎,而在10%、30%、100%全光光照条件下各组织的表达量有很大差异;(5)高效液相色谱法结果显示,不同光照条件下龙胆苦苷含量一致,均为根 > 叶 > 茎,其中100%全光光照下,药用部位根中龙胆苦苷含量达到7.141%,约是30%、10%全光光照条件的两倍,但该结果与同一光照条件下GrHDR基因表达规律不完全一致。该研究为阐述HDR基因功能及其与龙胆苦苷含量的关系提供参考。